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Online since: June 2014
Authors: Qiao Chen, Fang Ke Shao
Proton exchange membranes based on POSS
Qiao Chen 1, a, and Fangke Shao 1,b
1 Clean Energy Materials Research Department, Toray Advanced Materials Research Laboratories (China) Co.
Alternative materials with lower expense and superior properties are required.
Rozie` re: Journal of Membrane Science Vol. 185 (2001), p. 41
Mikhailenk and G.P.Robertson: Journal of Membrane Science Vol. 173 (2000), p17
Fichet, Journal of Membrane Science Vol. 368 (2011), p. 1
Alternative materials with lower expense and superior properties are required.
Rozie` re: Journal of Membrane Science Vol. 185 (2001), p. 41
Mikhailenk and G.P.Robertson: Journal of Membrane Science Vol. 173 (2000), p17
Fichet, Journal of Membrane Science Vol. 368 (2011), p. 1
Online since: August 2014
Authors: Yi Ping Yu, Song Wang, Wei Li
Materials Science and Engineering A. 334 (2002) 223-232
Journal of Materials Science. 39 (2004) 6005-6015
Journal of Refractory Metals and Hard Materials. 28 (2010) 587-592
Journal of Reractory Metals and Hard Materials. 35 (2012) 49-54
Journal of Refractory Metals and Hard Materials. 37 (2013) 29-32
Journal of Materials Science. 39 (2004) 6005-6015
Journal of Refractory Metals and Hard Materials. 28 (2010) 587-592
Journal of Reractory Metals and Hard Materials. 35 (2012) 49-54
Journal of Refractory Metals and Hard Materials. 37 (2013) 29-32
Online since: December 2023
Authors: Jian Kun Qin, Zhao Yang Ma, Xue Yu Pang, Zhen Zhang
Materials and Methods
Materials.
Materials & Design, 2022, 213: 110317
Nanoscale characterization of cementitious materials.
ACI Materials Journal, 2008, 105(2): 174
Journal of materials research, 1992, 7(6): 1564-1583
Materials & Design, 2022, 213: 110317
Nanoscale characterization of cementitious materials.
ACI Materials Journal, 2008, 105(2): 174
Journal of materials research, 1992, 7(6): 1564-1583
Online since: December 2012
Authors: Yi Ping Qiu, Jian Fei Xie, Shu Yao Sun, Feng Ji
The results show that certain kind of fabric performs characteristic adhesion force-displacement curve, which should be explained through fabric materials and structures.
However, it has long been a problem how to objectively and effectively evaluate the dressing comfortability of fabric materials in wet conditions [2, 3, 4].
The characteristic curves and indices prove that the wet fabric-skin adhesion are the synthetic results of fabric materials and textile parameters.
Michel, Textile Research Journal, 2012, 82 (4), P374-384
Zhang, Journal of Textile Research,2007, 28 (12), P38-40.
However, it has long been a problem how to objectively and effectively evaluate the dressing comfortability of fabric materials in wet conditions [2, 3, 4].
The characteristic curves and indices prove that the wet fabric-skin adhesion are the synthetic results of fabric materials and textile parameters.
Michel, Textile Research Journal, 2012, 82 (4), P374-384
Zhang, Journal of Textile Research,2007, 28 (12), P38-40.
Online since: September 2022
Authors: King James Egbe, Ali Matin Nazar, Peng Cheng Jiao
Research Overview
Materials for Triboelectrification.
Triboelectric series for some commonly materials.
Zhu: Materials Vol. 14(22) (2021), p. 6882
Yang: APL Materials Vol. 9(9) (2021), p. 091111
Jiao: Journal of Marine Science and Engineering.
Triboelectric series for some commonly materials.
Zhu: Materials Vol. 14(22) (2021), p. 6882
Yang: APL Materials Vol. 9(9) (2021), p. 091111
Jiao: Journal of Marine Science and Engineering.
Online since: June 2017
Authors: Melin Khonthee, Nuanjira Maneewong, Chatchai Doungkaew, Varinthorn Boonyaroj
Introduction
The municipal solid waste contains materials which vary widely in size, moisture, and nutrient content, and organic fractions of solid waste can be mixed with varying degrees of non-compostable wastes and possibly hazardous constituents.
Methodology Municipal solid waste was collected from Faculty of Science and Technology for the composting process.
Acknowledgements The authors would like to express our appreciation to Institute of Research and Development, Rajamangala University of Technology Phra Nakhon for providing research fund through Department of Environmental Science and Natural Resources, Faculty of Science and Technology, Rajamangala University of Technology Phra Nakhon.
Plants and soil microorganisms: removal of formaldehyde, xylene, and ammonia from the indoor environment, Journal of the Mississippi Academy of Science. 38(2): 11-15
World Academy of Science, Engineering and Technology.60: 534-539
Methodology Municipal solid waste was collected from Faculty of Science and Technology for the composting process.
Acknowledgements The authors would like to express our appreciation to Institute of Research and Development, Rajamangala University of Technology Phra Nakhon for providing research fund through Department of Environmental Science and Natural Resources, Faculty of Science and Technology, Rajamangala University of Technology Phra Nakhon.
Plants and soil microorganisms: removal of formaldehyde, xylene, and ammonia from the indoor environment, Journal of the Mississippi Academy of Science. 38(2): 11-15
World Academy of Science, Engineering and Technology.60: 534-539
Online since: January 2019
Authors: Monica Alvarez de Buergo, Natalia Perez-Ema
This nanoproduct was specifically designed for the conservation of stone materials, being this study the first one performed on stone materials of archaeological provenance.
Science, Technology and Cultural Heritage.
Materials and structures.
Journal of Geophysics and Engineering 9, pp. 108-117
Journal of Colloidal and Interface Science, 435, pp. 128-137 [14] VÁZQUEZ-CALVO, C., ÁLVAREZ DE BUERGO, M., FORT, R., VARAS-MURIEL, M.J. (2012) “The measurement of surface roughness to determine the suitability of different methods for stone cleaning”.
Science, Technology and Cultural Heritage.
Materials and structures.
Journal of Geophysics and Engineering 9, pp. 108-117
Journal of Colloidal and Interface Science, 435, pp. 128-137 [14] VÁZQUEZ-CALVO, C., ÁLVAREZ DE BUERGO, M., FORT, R., VARAS-MURIEL, M.J. (2012) “The measurement of surface roughness to determine the suitability of different methods for stone cleaning”.
Online since: January 2013
Authors: Rong Jin Huang, Yuan Zhou, Min Zhou, Ye Mao Han, Zhen Chen, Lai Feng Li
Thus, use of polycrystalline materials may be suitable for application.
Zhou, High-performance nanostructured thermoelectric materials, NPG Asia Materials. 2:4 (2010) 152-158
Huang, Developments in semiconductor thermoelectric materials, Frontiers in Energy. 5:2 (2011) 125-136
Nan, Physics of inhomogeneous inorganic materials, Prog Mater Sci. 37:1 (1993) 1-116
Cohen, Thermoelectric power in inhomogeneous materials, Phys Rev B. 16:6 (1977) 2959-2964
Zhou, High-performance nanostructured thermoelectric materials, NPG Asia Materials. 2:4 (2010) 152-158
Huang, Developments in semiconductor thermoelectric materials, Frontiers in Energy. 5:2 (2011) 125-136
Nan, Physics of inhomogeneous inorganic materials, Prog Mater Sci. 37:1 (1993) 1-116
Cohen, Thermoelectric power in inhomogeneous materials, Phys Rev B. 16:6 (1977) 2959-2964
Online since: August 2013
Authors: Jin Hao Liu, Dian Wang, Jian Li Wang
Method
Materials
Parameters of materials must be set before using FEM.
Wood can be seen as a kind of orthogonal anisotropy material from references [3].
Forestry Science and Technology, (2005) (1) 40-42
Journal of Mechanical Transmission, (2010) (9) 53-55
Su C, Finite Element Analysis of Metal Cutting Process Based on LS-DYNA, Journal of Northeastern University (Natural Science), (2008) (9) 1334-1337
Wood can be seen as a kind of orthogonal anisotropy material from references [3].
Forestry Science and Technology, (2005) (1) 40-42
Journal of Mechanical Transmission, (2010) (9) 53-55
Su C, Finite Element Analysis of Metal Cutting Process Based on LS-DYNA, Journal of Northeastern University (Natural Science), (2008) (9) 1334-1337
Online since: September 2013
Authors: Liang Jun Zhu, Ming Ying Yang, Si Jia Min, Guan Shan Zhou, Namita Mandal, Ya Jun Shuai
Therefore, the efforts are increasingly focused on the composite materials by blending HAp with polymer materials.
George, et al: Nature materials Vol. 9 (2010), p.1004 [5] D.
Visan, et al: Materials Science and Engineering: B Vol. 169 (2010), p.151 [7] X.
Shuai, et al: Journal of Polymer Science Part B: Polymer Physics Vol. 51 (2013), p.742 [9] J.
Hu, et al: Journal of biomedical materials research Part A Vol. 99 (2011), p.327 [10] S.
George, et al: Nature materials Vol. 9 (2010), p.1004 [5] D.
Visan, et al: Materials Science and Engineering: B Vol. 169 (2010), p.151 [7] X.
Shuai, et al: Journal of Polymer Science Part B: Polymer Physics Vol. 51 (2013), p.742 [9] J.
Hu, et al: Journal of biomedical materials research Part A Vol. 99 (2011), p.327 [10] S.